WIND ENERGY SYSTEMS - Cd3wd
WIND ENERGY SYSTEMS - Cd3wd WIND ENERGY SYSTEMS - Cd3wd
Chapter 1—Introduction 1–8 The stresses in the aluminum blades were too high when the unit was first placed into operation, and it was determined that the tower shadow was excessive. The tower was blocking the airflow much more than had been expected. A stairway inside the tower which had been added late in the design was removed and this solved the problem. Except for this tower blockage problem, the MOD-0 performed reasonably well, and provided a good base of experience for designing larger and better turbines. The decision was made in 1975 to build several of these turbines, designated as the MOD-0A. The size of tower and rotor remained the same, but the generator size was doubled from 100 to 200 kW. The extra power would be produced in somewhat higher wind speeds than the rated wind speed of the MOD-0. The Westinghouse Electric Corporation of Pittsburgh, Pennsylvania was the prime contractor responsible for assembly and installation. The blades were built by the Lockheed California Company of Burbank, California. The first MOD-0A was installed at Clayton, New Mexico in late 1977, the second at Culebra, Puerto Rico in mid 1978, the third at Block Island, Rhode Island in early 1979, and the fourth at Kahuku Point, Oahu, Hawaii in early 1980. The first three machines used aluminum blades while the Kahuku MOD-0A used wood composite blades. The wooden blades weighed 1360 kg each, 320 kg more than the aluminum blades, but the expected life was longer than their aluminum counterparts. A MOD-0AisshowninFig.2. Figure 2: MOD-0A located at Kahuku Point, Oahu, Hawaii. (Courtesy of DOE.) The Kahuku machine is located in a trade wind environment where relatively steady, high speed winds are experienced for long periods of time. The machine produced an average Wind Energy Systems by Dr. Gary L. Johnson November 20, 2001
Chapter 1—Introduction 1–9 power output of 178 kW for the first 573 hours of operation. This was an outstanding record compared with the output of the other MOD-0A machines of 117 kW at Culebra, 89 kW at Clayton, and only 52 kW at Block Island during the first few months of operation for these machines. This shows the importance of good site selection in the economical application of large wind turbines. Following the MOD-0 and MOD-0A was a series of other machines, the MOD-1, MOD-2, etc. Design parameters for several of these machines are shown in Table 1.1. The MOD-1 was built as a 2000-kW machine with a rotor diameter of 61 m. It is pictured in Fig. 3. Full span pitch control was used to control the rotor speed at a constant 35 r/min. It was built at Howard’s Knob, near Boone, North Carolina in late 1978. It may be noticed from Table 1.1 that the rated windspeed for the MOD-1 was 14.6 m/s at hub height, significantly higher than the others. This allowed the MOD-1 to have a rated power of 10 times that of the MOD-0A with a swept area only 2.65 times as large. Figure 3: MOD-1 located at Boone, North Carolina. (Courtesy of DOE.) Wind Energy Systems by Dr. Gary L. Johnson November 20, 2001
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Chapter 1—Introduction 1–9<br />
power output of 178 kW for the first 573 hours of operation. This was an outstanding record<br />
compared with the output of the other MOD-0A machines of 117 kW at Culebra, 89 kW at<br />
Clayton, and only 52 kW at Block Island during the first few months of operation for these<br />
machines. This shows the importance of good site selection in the economical application of<br />
large wind turbines.<br />
Following the MOD-0 and MOD-0A was a series of other machines, the MOD-1, MOD-2,<br />
etc. Design parameters for several of these machines are shown in Table 1.1. The MOD-1<br />
was built as a 2000-kW machine with a rotor diameter of 61 m. It is pictured in Fig. 3. Full<br />
span pitch control was used to control the rotor speed at a constant 35 r/min. It was built at<br />
Howard’s Knob, near Boone, North Carolina in late 1978. It may be noticed from Table 1.1<br />
that the rated windspeed for the MOD-1 was 14.6 m/s at hub height, significantly higher than<br />
the others. This allowed the MOD-1 to have a rated power of 10 times that of the MOD-0A<br />
with a swept area only 2.65 times as large.<br />
Figure 3: MOD-1 located at Boone, North Carolina. (Courtesy of DOE.)<br />
Wind Energy Systems by Dr. Gary L. Johnson November 20, 2001